Poly(3-Hydroxyvalerate) Depolymerase of Pseudomonas lemoignei

AUTOR(ES)

Schöber, Ute

FONTE

American Society for Microbiology

RESUMO

Pseudomonas lemoignei is equipped with at least five polyhydroxyalkanoate (PHA) depolymerase structural genes (phaZ1 to phaZ5) which enable the bacterium to utilize extracellular poly(3-hydroxybutyrate) (PHB), poly(3-hydroxyvalerate) (PHV), and related polyesters consisting of short-chain-length hxdroxyalkanoates (PHASCL) as the sole sources of carbon and energy. Four genes (phaZ1, phaZ2, phaZ3, and phaZ5) encode PHB depolymerases C, B, D, and A, respectively. It was speculated that the remaining gene, phaZ4, encodes the PHV depolymerase (D. Jendrossek, A. Frisse, A. Behrends, M. Andermann, H. D. Kratzin, T. Stanislawski, and H. G. Schlegel, J. Bacteriol. 177:596–607, 1995). However, in this study, we show that phaZ4 codes for another PHB depolymeraes (i) by disagreement of 5 out of 41 amino acids that had been determined by Edman degradation of the PHV depolymerase and of four endoproteinase GluC-generated internal peptides with the DNA-deduced sequence of phaZ4, (ii) by the lack of immunological reaction of purified recombinant PhaZ4 with PHV depolymerase-specific antibodies, and (iii) by the low activity of the PhaZ4 depolymerase with PHV as a substrate. The true PHV depolymerase-encoding structural gene, phaZ6, was identified by screening a genomic library of P. lemoignei in Escherichia coli for clearing zone formation on PHV agar. The DNA sequence of phaZ6 contained all 41 amino acids of the GluC-generated peptide fragments of the PHV depolymerase. PhaZ6 was expressed and purified from recombinant E. coli and showed immunological identity to the wild-type PHV depolymerase and had high specific activities with PHB and PHV as substrates. To our knowledge, this is the first report on a PHASCL depolymerase gene that is expressed during growth on PHV or odd-numbered carbon sources and that encodes a protein with high PHV depolymerase activity. Amino acid analysis revealed that PhaZ6 (relative molecular mass [Mr], 43,610 Da) resembles precursors of other extracellular PHASCL depolymerases (28 to 50% identical amino acids). The mature protein (Mr, 41,048) is composed of (i) a large catalytic domain including a catalytic triad of S136, D211, and H269 similar to serine hydrolases; (ii) a linker region highly enriched in threonine residues and other amino acids with hydroxylated or small side chains (Thr-rich region); and (iii) a C-terminal domain similar in sequence to the substrate-binding domain of PHASCL depolymerases. Differences in the codon usage of phaZ6 for some codons from the average codon usage of P. lemoignei indicated that phaZ6 might be derived from other organisms by gene transfer. Multialignment of separate domains of bacterial PHASCL depolymerases suggested that not only complete depolymerase genes but also individual domains might have been exchanged between bacteria during evolution of PHASCL depolymerases.

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